[1] Ruan Chenli, Dong Yuliang. Millimeter Wave They Technology[M]. Chengdu: University of Electronic Science Technology Press, 2013. (in Chinese)
[2] Yusheng Han, Ling Yao, Shuo Wang. Jamming and counter technology of millimeter guidance weapon. Infrared and Laser Engineering, 36, 444-448(2007).
[3] Qin Xiao, Yinbo Li, Yan Li, et al. 8 mm focal flane array imaging technique. Telecommunication Engineering, 48, 97-100(2008).
[4] Chongsong Qian, Xinguo Li. Overview of passive millimeter wave image. Guidance & Fuze, 24, 29-33, 36(2003).
[5] Ximei Yin, Pengpeng Feng. Status and prospect of terminal sensitive technology. Journal of Detection & Control, 39, 1-6(2017).
[6] Jiangying Nie, Xingguo Li, Guowei Lou. Analysis and calculation of coating stealth targets with passive millimeter wave detection system. Opto-Electronic Engineering, 37, 1-6(2010).
[7] Jiangying Nie, Xingguo Li, Guowei Lou. Coating-stealth target radiation transmission characteristics. Chinese Journal of Radio Science, 27, 733-738(2012).
[8] Taiyang Hu, Zelong Xiao, Jianzhong Xu. Method of anti-coating-stealth ground based metal targets by millimeter-wave radiometric detection. Telecommunication Engineering, 50, 1-6(2010).
[9] Yexin Xing, Guowei Lou, Xingguo Li, et al. Millimeter wave passive detection for stealth air target. Journal of Nanjing University of Science and Technology, 35, 289-293(2011).
[10] Anhua Zhang. Study on surface treatment of carbon fiber and its composite material performance. Chemical Management, 31-32(2020).
[11] J Li, X Chen, Y Wang, et al. Burning and radiance properties of red phosphorus in Magnesium /PTFE/Viton(MTV)-based compositions. Infrared Physics & Technology, 85, 109-113(2017).
[12] Minghua Chen, Haimei Ma. Influence of carbon fiber on burning rate infrared radiation intensity of Mg/PTFE infrared composition. Laser & Infrared, 38, 1008-1010(2008).
[13] Li Xingguo, Li Yuehua. Millimeter Wave Shtrange Detection Technology Foundation[M]. Beijing: Beijing Institute of Technology Press, 2009. (in Chinese)
[14] H F Calcote, D G Keil. Ion-molecule reactions in sooting acetylene-oxygen flames. Combust and Flame, 74, 131-146(1988).
[15] J M Goodings, D K Bohme, Ng Chun-Wai. Detailed ion chemistry in methane-oxygen flames. I. Positive ions. Combust and Flame, 36, 27-43(1979).
[16] B Chen, H Wang, Z Wang, et al. Ion chemistry in premixed rich methane flames. Combust and Flame, 202, 208-218(2019).
[17] G Dong, Z Feng, L Li, et al. The effect of electron ambipolar diffusion on the ion current signals in a premixed methane flame. Fuel, 256, 115813(2019).
[18] T Fukuyama, N Mukai, G Togawa. Dynamic behaviours of a flame as plasma in a strong electric field. Scientific Reports, 9, 15811(2019).
[19] Peng Ru. The combustion name radiating millimeter wave radiation mechanism based on pyrotechnic materials[D]. Nanjing: Nanjing University of Science Technology, 2015. (in Chinese)